OpenCV实战- 手势隔空拖拉拽
# requirement
mediapipe==0.8.9
comtypes
pycaw
numpy
opencv-python
功能:手势虚拟拖拽
1、使用OpenCV读取摄像头视频流;
2、识别手掌关键点像素坐标;
3、根据食指和中指指尖的坐标,利用勾股定理计算距离,当距离较小且都落在矩形内,则触发拖拽(矩形变色);
4、矩形跟着手指动;
5、两指放开,则矩形停止移动
# 导入OpenCV
import cv2
# 导入mediapipe
import mediapipe as mp
# 导入其他依赖包
import time
import math
# 方块管理类
class SquareManager:
def __init__(self, rect_width):
# 方框长度
self.rect_width = rect_width
# 方块list
self.square_count = 0
self.rect_left_x_list = []
self.rect_left_y_list = []
self.alpha_list = []
# 中指与矩形左上角点的距离
self.L1 = 0
self.L2 = 0
# 激活移动模式
self.drag_active = False
# 激活的方块ID
self.active_index = -1
# 创建一个方块,但是没有显示
def create(self, rect_left_x, rect_left_y, alpha=0.4):
self.rect_left_x_list.append(rect_left_x)
self.rect_left_y_list.append(rect_left_y)
self.alpha_list.append(alpha)
self.square_count += 1
# 更新位置
def display(self, class_obj):
for i in range(0, self.square_count):
x = self.rect_left_x_list[i]
y = self.rect_left_y_list[i]
alpha = self.alpha_list[i]
overlay = class_obj.image.copy()
if (i == self.active_index):
cv2.rectangle(overlay, (x, y), (x + self.rect_width, y + self.rect_width), (255, 0, 255), -1)
else:
cv2.rectangle(overlay, (x, y), (x + self.rect_width, y + self.rect_width), (255, 0, 0), -1)
# Following line overlays transparent rectangle over the self.image
class_obj.image = cv2.addWeighted(overlay, alpha, class_obj.image, 1 - alpha, 0)
# 判断落在哪个方块上,返回方块的ID
def checkOverlay(self, check_x, check_y):
for i in range(0, self.square_count):
x = self.rect_left_x_list[i]
y = self.rect_left_y_list[i]
if (x < check_x < (x + self.rect_width)) and (y < check_y < (y + self.rect_width)):
# 保存被激活的方块ID
self.active_index = i
return i
return -1
# 计算与指尖的距离
def setLen(self, check_x, check_y):
# 计算距离
self.L1 = check_x - self.rect_left_x_list[self.active_index]
self.L2 = check_y - self.rect_left_y_list[self.active_index]
# 更新方块
def updateSquare(self, new_x, new_y):
# print(self.rect_left_x_list[self.active_index])
self.rect_left_x_list[self.active_index] = new_x - self.L1
self.rect_left_y_list[self.active_index] = new_y - self.L2
# 识别控制类
class HandControlVolume:
def __init__(self):
# 初始化medialpipe
self.mp_drawing = mp.solutions.drawing_utils
self.mp_drawing_styles = mp.solutions.drawing_styles
self.mp_hands = mp.solutions.hands
# 中指与矩形左上角点的距离
self.L1 = 0
self.L2 = 0
# image实例,以便另一个类调用
self.image = None
# 主函数
def recognize(self):
# 计算刷新率
fpsTime = time.time()
# OpenCV读取视频流
cap = cv2.VideoCapture(0)
# 视频分辨率
resize_w = int(cap.get(cv2.CAP_PROP_FRAME_WIDTH))
resize_h = int(cap.get(cv2.CAP_PROP_FRAME_HEIGHT))
# 画面显示初始化参数
rect_percent_text = 0
# 初始化方块管理器
squareManager = SquareManager(150)
# 创建多个方块
for i in range(0, 5):
squareManager.create(200 * i + 20, 200, 0.6)
with self.mp_hands.Hands(min_detection_confidence=0.7,
min_tracking_confidence=0.5,
max_num_hands=2) as hands:
while cap.isOpened():
# 初始化矩形
success, self.image = cap.read()
self.image = cv2.resize(self.image, (resize_w, resize_h))
if not success:
print("空帧.")
continue
# 提高性能
self.image.flags.writeable = False
# 转为RGB
self.image = cv2.cvtColor(self.image, cv2.COLOR_BGR2RGB)
# 镜像
self.image = cv2.flip(self.image, 1)
# mediapipe模型处理
results = hands.process(self.image)
self.image.flags.writeable = True
self.image = cv2.cvtColor(self.image, cv2.COLOR_RGB2BGR)
# 判断是否有手掌
if results.multi_hand_landmarks:
# 遍历每个手掌
for hand_landmarks in results.multi_hand_landmarks:
# 在画面标注手指
self.mp_drawing.draw_landmarks(
self.image,
hand_landmarks,
self.mp_hands.HAND_CONNECTIONS,
self.mp_drawing_styles.get_default_hand_landmarks_style(),
self.mp_drawing_styles.get_default_hand_connections_style())
# 解析手指,存入各个手指坐标
landmark_list = []
# 用来存储手掌范围的矩形坐标
paw_x_list = []
paw_y_list = []
for landmark_id, finger_axis in enumerate(
hand_landmarks.landmark):
landmark_list.append([
landmark_id, finger_axis.x, finger_axis.y,
finger_axis.z
])
paw_x_list.append(finger_axis.x)
paw_y_list.append(finger_axis.y)
if landmark_list:
# 比例缩放到像素
ratio_x_to_pixel = lambda x: math.ceil(x * resize_w)
ratio_y_to_pixel = lambda y: math.ceil(y * resize_h)
# 设计手掌左上角、右下角坐标
paw_left_top_x, paw_right_bottom_x = map(ratio_x_to_pixel,
[min(paw_x_list), max(paw_x_list)])
paw_left_top_y, paw_right_bottom_y = map(ratio_y_to_pixel,
[min(paw_y_list), max(paw_y_list)])
# 给手掌画框框
cv2.rectangle(self.image, (paw_left_top_x - 30, paw_left_top_y - 30),
(paw_right_bottom_x + 30, paw_right_bottom_y + 30), (0, 255, 0), 2)
# 获取中指指尖坐标
middle_finger_tip = landmark_list[12]
middle_finger_tip_x = ratio_x_to_pixel(middle_finger_tip[1])
middle_finger_tip_y = ratio_y_to_pixel(middle_finger_tip[2])
# 获取食指指尖坐标
index_finger_tip = landmark_list[8]
index_finger_tip_x = ratio_x_to_pixel(index_finger_tip[1])
index_finger_tip_y = ratio_y_to_pixel(index_finger_tip[2])
# 中间点
between_finger_tip = (middle_finger_tip_x + index_finger_tip_x) // 2, (
middle_finger_tip_y + index_finger_tip_y) // 2
# print(middle_finger_tip_x)
thumb_finger_point = (middle_finger_tip_x, middle_finger_tip_y)
index_finger_point = (index_finger_tip_x, index_finger_tip_y)
# 画指尖2点
circle_func = lambda point: cv2.circle(self.image, point, 10, (255, 0, 255), -1)
self.image = circle_func(thumb_finger_point)
self.image = circle_func(index_finger_point)
self.image = circle_func(between_finger_tip)
# 画2点连线
self.image = cv2.line(self.image, thumb_finger_point, index_finger_point, (255, 0, 255), 5)
# 勾股定理计算长度
line_len = math.hypot((index_finger_tip_x - middle_finger_tip_x),
(index_finger_tip_y - middle_finger_tip_y))
# 将指尖距离映射到文字
rect_percent_text = math.ceil(line_len)
# 激活模式,需要让矩形跟随移动
if squareManager.drag_active:
# 更新方块
squareManager.updateSquare(between_finger_tip[0], between_finger_tip[1])
if (line_len > 100):
# 取消激活
squareManager.drag_active = False
squareManager.active_index = -1
elif (line_len < 100) and (squareManager.checkOverlay(between_finger_tip[0],
between_finger_tip[1]) != -1) and (
squareManager.drag_active == False):
# 激活
squareManager.drag_active = True
# 计算距离
squareManager.setLen(between_finger_tip[0], between_finger_tip[1])
# 显示方块,传入本实例,主要为了半透明的处理
squareManager.display(self)
# 显示距离
cv2.putText(self.image, "Distance:" + str(rect_percent_text), (10, 120), cv2.FONT_HERSHEY_PLAIN, 3,
(255, 0, 0), 3)
# 显示当前激活
cv2.putText(self.image, "Active:" + (
"None" if squareManager.active_index == -1 else str(squareManager.active_index)), (10, 170),
cv2.FONT_HERSHEY_PLAIN, 3, (255, 0, 0), 3)
# 显示刷新率FPS
cTime = time.time()
fps_text = 1 / (cTime - fpsTime)
fpsTime = cTime
cv2.putText(self.image, "FPS: " + str(int(fps_text)), (10, 70),
cv2.FONT_HERSHEY_PLAIN, 3, (255, 0, 0), 3)
# 显示画面
# self.image = cv2.resize(self.image, (resize_w//2, resize_h//2))
cv2.imshow('virtual drag and drop', self.image)
if cv2.waitKey(5) & 0xFF == 27:
break
cap.release()
# 开始程序
control = HandControlVolume()
control.recognize()
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